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MyMesh.cpp
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1868 lines (1732 loc) · 67.4 KB
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#include "MyMesh.h"
#include <Arduino.h> // needed for PlatformIO
#include <Mesh.h>
#define CMD_APP_START 1
#define CMD_SEND_TXT_MSG 2
#define CMD_SEND_CHANNEL_TXT_MSG 3
#define CMD_GET_CONTACTS 4 // with optional 'since' (for efficient sync)
#define CMD_GET_DEVICE_TIME 5
#define CMD_SET_DEVICE_TIME 6
#define CMD_SEND_SELF_ADVERT 7
#define CMD_SET_ADVERT_NAME 8
#define CMD_ADD_UPDATE_CONTACT 9
#define CMD_SYNC_NEXT_MESSAGE 10
#define CMD_SET_RADIO_PARAMS 11
#define CMD_SET_RADIO_TX_POWER 12
#define CMD_RESET_PATH 13
#define CMD_SET_ADVERT_LATLON 14
#define CMD_REMOVE_CONTACT 15
#define CMD_SHARE_CONTACT 16
#define CMD_EXPORT_CONTACT 17
#define CMD_IMPORT_CONTACT 18
#define CMD_REBOOT 19
#define CMD_GET_BATT_AND_STORAGE 20 // was CMD_GET_BATTERY_VOLTAGE
#define CMD_SET_TUNING_PARAMS 21
#define CMD_DEVICE_QEURY 22
#define CMD_EXPORT_PRIVATE_KEY 23
#define CMD_IMPORT_PRIVATE_KEY 24
#define CMD_SEND_RAW_DATA 25
#define CMD_SEND_LOGIN 26
#define CMD_SEND_STATUS_REQ 27
#define CMD_HAS_CONNECTION 28
#define CMD_LOGOUT 29 // 'Disconnect'
#define CMD_GET_CONTACT_BY_KEY 30
#define CMD_GET_CHANNEL 31
#define CMD_SET_CHANNEL 32
#define CMD_SIGN_START 33
#define CMD_SIGN_DATA 34
#define CMD_SIGN_FINISH 35
#define CMD_SEND_TRACE_PATH 36
#define CMD_SET_DEVICE_PIN 37
#define CMD_SET_OTHER_PARAMS 38
#define CMD_SEND_TELEMETRY_REQ 39 // can deprecate this
#define CMD_GET_CUSTOM_VARS 40
#define CMD_SET_CUSTOM_VAR 41
#define CMD_GET_ADVERT_PATH 42
#define CMD_GET_TUNING_PARAMS 43
// NOTE: CMD range 44..49 parked, potentially for WiFi operations
#define CMD_SEND_BINARY_REQ 50
#define CMD_FACTORY_RESET 51
#define CMD_SEND_PATH_DISCOVERY_REQ 52
#define CMD_SET_FLOOD_SCOPE 54 // v8+
#define CMD_SEND_CONTROL_DATA 55 // v8+
#define CMD_GET_STATS 56 // v8+, second byte is stats type
// Stats sub-types for CMD_GET_STATS
#define STATS_TYPE_CORE 0
#define STATS_TYPE_RADIO 1
#define STATS_TYPE_PACKETS 2
#define RESP_CODE_OK 0
#define RESP_CODE_ERR 1
#define RESP_CODE_CONTACTS_START 2 // first reply to CMD_GET_CONTACTS
#define RESP_CODE_CONTACT 3 // multiple of these (after CMD_GET_CONTACTS)
#define RESP_CODE_END_OF_CONTACTS 4 // last reply to CMD_GET_CONTACTS
#define RESP_CODE_SELF_INFO 5 // reply to CMD_APP_START
#define RESP_CODE_SENT 6 // reply to CMD_SEND_TXT_MSG
#define RESP_CODE_CONTACT_MSG_RECV 7 // a reply to CMD_SYNC_NEXT_MESSAGE (ver < 3)
#define RESP_CODE_CHANNEL_MSG_RECV 8 // a reply to CMD_SYNC_NEXT_MESSAGE (ver < 3)
#define RESP_CODE_CURR_TIME 9 // a reply to CMD_GET_DEVICE_TIME
#define RESP_CODE_NO_MORE_MESSAGES 10 // a reply to CMD_SYNC_NEXT_MESSAGE
#define RESP_CODE_EXPORT_CONTACT 11
#define RESP_CODE_BATT_AND_STORAGE 12 // a reply to a CMD_GET_BATT_AND_STORAGE
#define RESP_CODE_DEVICE_INFO 13 // a reply to CMD_DEVICE_QEURY
#define RESP_CODE_PRIVATE_KEY 14 // a reply to CMD_EXPORT_PRIVATE_KEY
#define RESP_CODE_DISABLED 15
#define RESP_CODE_CONTACT_MSG_RECV_V3 16 // a reply to CMD_SYNC_NEXT_MESSAGE (ver >= 3)
#define RESP_CODE_CHANNEL_MSG_RECV_V3 17 // a reply to CMD_SYNC_NEXT_MESSAGE (ver >= 3)
#define RESP_CODE_CHANNEL_INFO 18 // a reply to CMD_GET_CHANNEL
#define RESP_CODE_SIGN_START 19
#define RESP_CODE_SIGNATURE 20
#define RESP_CODE_CUSTOM_VARS 21
#define RESP_CODE_ADVERT_PATH 22
#define RESP_CODE_TUNING_PARAMS 23
#define RESP_CODE_STATS 24 // v8+, second byte is stats type
#define SEND_TIMEOUT_BASE_MILLIS 500
#define FLOOD_SEND_TIMEOUT_FACTOR 16.0f
#define DIRECT_SEND_PERHOP_FACTOR 6.0f
#define DIRECT_SEND_PERHOP_EXTRA_MILLIS 250
#define LAZY_CONTACTS_WRITE_DELAY 5000
#define PUBLIC_GROUP_PSK "izOH6cXN6mrJ5e26oRXNcg=="
// these are _pushed_ to client app at any time
#define PUSH_CODE_ADVERT 0x80
#define PUSH_CODE_PATH_UPDATED 0x81
#define PUSH_CODE_SEND_CONFIRMED 0x82
#define PUSH_CODE_MSG_WAITING 0x83
#define PUSH_CODE_RAW_DATA 0x84
#define PUSH_CODE_LOGIN_SUCCESS 0x85
#define PUSH_CODE_LOGIN_FAIL 0x86
#define PUSH_CODE_STATUS_RESPONSE 0x87
#define PUSH_CODE_LOG_RX_DATA 0x88
#define PUSH_CODE_TRACE_DATA 0x89
#define PUSH_CODE_NEW_ADVERT 0x8A
#define PUSH_CODE_TELEMETRY_RESPONSE 0x8B
#define PUSH_CODE_BINARY_RESPONSE 0x8C
#define PUSH_CODE_PATH_DISCOVERY_RESPONSE 0x8D
#define PUSH_CODE_CONTROL_DATA 0x8E // v8+
#define ERR_CODE_UNSUPPORTED_CMD 1
#define ERR_CODE_NOT_FOUND 2
#define ERR_CODE_TABLE_FULL 3
#define ERR_CODE_BAD_STATE 4
#define ERR_CODE_FILE_IO_ERROR 5
#define ERR_CODE_ILLEGAL_ARG 6
#define MAX_SIGN_DATA_LEN (8 * 1024) // 8K
void MyMesh::writeOKFrame() {
uint8_t buf[1];
buf[0] = RESP_CODE_OK;
_serial->writeFrame(buf, 1);
}
void MyMesh::writeErrFrame(uint8_t err_code) {
uint8_t buf[2];
buf[0] = RESP_CODE_ERR;
buf[1] = err_code;
_serial->writeFrame(buf, 2);
}
void MyMesh::writeDisabledFrame() {
uint8_t buf[1];
buf[0] = RESP_CODE_DISABLED;
_serial->writeFrame(buf, 1);
}
void MyMesh::writeContactRespFrame(uint8_t code, const ContactInfo &contact) {
int i = 0;
out_frame[i++] = code;
memcpy(&out_frame[i], contact.id.pub_key, PUB_KEY_SIZE);
i += PUB_KEY_SIZE;
out_frame[i++] = contact.type;
out_frame[i++] = contact.flags;
out_frame[i++] = contact.out_path_len;
memcpy(&out_frame[i], contact.out_path, MAX_PATH_SIZE);
i += MAX_PATH_SIZE;
StrHelper::strzcpy((char *)&out_frame[i], contact.name, 32);
i += 32;
memcpy(&out_frame[i], &contact.last_advert_timestamp, 4);
i += 4;
memcpy(&out_frame[i], &contact.gps_lat, 4);
i += 4;
memcpy(&out_frame[i], &contact.gps_lon, 4);
i += 4;
memcpy(&out_frame[i], &contact.lastmod, 4);
i += 4;
_serial->writeFrame(out_frame, i);
}
void MyMesh::updateContactFromFrame(ContactInfo &contact, uint32_t& last_mod, const uint8_t *frame, int len) {
int i = 0;
uint8_t code = frame[i++]; // eg. CMD_ADD_UPDATE_CONTACT
memcpy(contact.id.pub_key, &frame[i], PUB_KEY_SIZE);
i += PUB_KEY_SIZE;
contact.type = frame[i++];
contact.flags = frame[i++];
contact.out_path_len = frame[i++];
memcpy(contact.out_path, &frame[i], MAX_PATH_SIZE);
i += MAX_PATH_SIZE;
memcpy(contact.name, &frame[i], 32);
i += 32;
memcpy(&contact.last_advert_timestamp, &frame[i], 4);
i += 4;
if (len >= i + 8) { // optional fields
memcpy(&contact.gps_lat, &frame[i], 4);
i += 4;
memcpy(&contact.gps_lon, &frame[i], 4);
i += 4;
if (len >= i + 4) {
memcpy(&last_mod, &frame[i], 4);
}
}
}
bool MyMesh::Frame::isChannelMsg() const {
return buf[0] == RESP_CODE_CHANNEL_MSG_RECV || buf[0] == RESP_CODE_CHANNEL_MSG_RECV_V3;
}
void MyMesh::addToOfflineQueue(const uint8_t frame[], int len) {
if (offline_queue_len >= OFFLINE_QUEUE_SIZE) {
MESH_DEBUG_PRINTLN("WARN: offline_queue is full!");
int pos = 0;
while (pos < offline_queue_len) {
if (offline_queue[pos].isChannelMsg()) {
for (int i = pos; i < offline_queue_len - 1; i++) { // delete oldest channel msg from queue
offline_queue[i] = offline_queue[i + 1];
}
MESH_DEBUG_PRINTLN("INFO: removed oldest channel message from queue.");
offline_queue[offline_queue_len - 1].len = len;
memcpy(offline_queue[offline_queue_len - 1].buf, frame, len);
return;
}
pos++;
}
MESH_DEBUG_PRINTLN("INFO: no channel messages to remove from queue.");
} else {
offline_queue[offline_queue_len].len = len;
memcpy(offline_queue[offline_queue_len].buf, frame, len);
offline_queue_len++;
}
}
int MyMesh::getFromOfflineQueue(uint8_t frame[]) {
if (offline_queue_len > 0) { // check offline queue
size_t len = offline_queue[0].len; // take from top of queue
memcpy(frame, offline_queue[0].buf, len);
offline_queue_len--;
for (int i = 0; i < offline_queue_len; i++) { // delete top item from queue
offline_queue[i] = offline_queue[i + 1];
}
return len;
}
return 0; // queue is empty
}
float MyMesh::getAirtimeBudgetFactor() const {
return _prefs.airtime_factor;
}
int MyMesh::getInterferenceThreshold() const {
return 0; // disabled for now, until currentRSSI() problem is resolved
}
int MyMesh::calcRxDelay(float score, uint32_t air_time) const {
if (_prefs.rx_delay_base <= 0.0f) return 0;
return (int)((pow(_prefs.rx_delay_base, 0.85f - score) - 1.0) * air_time);
}
uint8_t MyMesh::getExtraAckTransmitCount() const {
return _prefs.multi_acks;
}
void MyMesh::logRxRaw(float snr, float rssi, const uint8_t raw[], int len) {
if (_serial->isConnected() && len + 3 <= MAX_FRAME_SIZE) {
int i = 0;
out_frame[i++] = PUSH_CODE_LOG_RX_DATA;
out_frame[i++] = (int8_t)(snr * 4);
out_frame[i++] = (int8_t)(rssi);
memcpy(&out_frame[i], raw, len);
i += len;
_serial->writeFrame(out_frame, i);
}
}
bool MyMesh::isAutoAddEnabled() const {
return (_prefs.manual_add_contacts & 1) == 0;
}
void MyMesh::onDiscoveredContact(ContactInfo &contact, bool is_new, uint8_t path_len, const uint8_t* path) {
if (_serial->isConnected()) {
if (!isAutoAddEnabled() && is_new) {
writeContactRespFrame(PUSH_CODE_NEW_ADVERT, contact);
} else {
out_frame[0] = PUSH_CODE_ADVERT;
memcpy(&out_frame[1], contact.id.pub_key, PUB_KEY_SIZE);
_serial->writeFrame(out_frame, 1 + PUB_KEY_SIZE);
}
} else {
#ifdef DISPLAY_CLASS
if (_ui) _ui->notify(UIEventType::newContactMessage);
#endif
}
// add inbound-path to mem cache
if (path && path_len <= sizeof(AdvertPath::path)) { // check path is valid
AdvertPath* p = advert_paths;
uint32_t oldest = 0xFFFFFFFF;
for (int i = 0; i < ADVERT_PATH_TABLE_SIZE; i++) { // check if already in table, otherwise evict oldest
if (memcmp(advert_paths[i].pubkey_prefix, contact.id.pub_key, sizeof(AdvertPath::pubkey_prefix)) == 0) {
p = &advert_paths[i]; // found
break;
}
if (advert_paths[i].recv_timestamp < oldest) {
oldest = advert_paths[i].recv_timestamp;
p = &advert_paths[i];
}
}
memcpy(p->pubkey_prefix, contact.id.pub_key, sizeof(p->pubkey_prefix));
strcpy(p->name, contact.name);
p->recv_timestamp = getRTCClock()->getCurrentTime();
p->path_len = path_len;
memcpy(p->path, path, p->path_len);
}
dirty_contacts_expiry = futureMillis(LAZY_CONTACTS_WRITE_DELAY);
}
static int sort_by_recent(const void *a, const void *b) {
return ((AdvertPath *) b)->recv_timestamp - ((AdvertPath *) a)->recv_timestamp;
}
int MyMesh::getRecentlyHeard(AdvertPath dest[], int max_num) {
if (max_num > ADVERT_PATH_TABLE_SIZE) max_num = ADVERT_PATH_TABLE_SIZE;
qsort(advert_paths, ADVERT_PATH_TABLE_SIZE, sizeof(advert_paths[0]), sort_by_recent);
for (int i = 0; i < max_num; i++) {
dest[i] = advert_paths[i];
}
return max_num;
}
void MyMesh::onContactPathUpdated(const ContactInfo &contact) {
out_frame[0] = PUSH_CODE_PATH_UPDATED;
memcpy(&out_frame[1], contact.id.pub_key, PUB_KEY_SIZE);
_serial->writeFrame(out_frame, 1 + PUB_KEY_SIZE); // NOTE: app may not be connected
dirty_contacts_expiry = futureMillis(LAZY_CONTACTS_WRITE_DELAY);
}
ContactInfo* MyMesh::processAck(const uint8_t *data) {
// see if matches any in a table
for (int i = 0; i < EXPECTED_ACK_TABLE_SIZE; i++) {
if (memcmp(data, &expected_ack_table[i].ack, 4) == 0) { // got an ACK from recipient
out_frame[0] = PUSH_CODE_SEND_CONFIRMED;
memcpy(&out_frame[1], data, 4);
uint32_t trip_time = _ms->getMillis() - expected_ack_table[i].msg_sent;
memcpy(&out_frame[5], &trip_time, 4);
_serial->writeFrame(out_frame, 9);
// NOTE: the same ACK can be received multiple times!
expected_ack_table[i].ack = 0; // clear expected hash, now that we have received ACK
return expected_ack_table[i].contact;
}
}
return checkConnectionsAck(data);
}
void MyMesh::queueMessage(const ContactInfo &from, uint8_t txt_type, mesh::Packet *pkt,
uint32_t sender_timestamp, const uint8_t *extra, int extra_len, const char *text) {
int i = 0;
if (app_target_ver >= 3) {
out_frame[i++] = RESP_CODE_CONTACT_MSG_RECV_V3;
out_frame[i++] = (int8_t)(pkt->getSNR() * 4);
out_frame[i++] = 0; // reserved1
out_frame[i++] = 0; // reserved2
} else {
out_frame[i++] = RESP_CODE_CONTACT_MSG_RECV;
}
memcpy(&out_frame[i], from.id.pub_key, 6);
i += 6; // just 6-byte prefix
uint8_t path_len = out_frame[i++] = pkt->isRouteFlood() ? pkt->path_len : 0xFF;
out_frame[i++] = txt_type;
memcpy(&out_frame[i], &sender_timestamp, 4);
i += 4;
if (extra_len > 0) {
memcpy(&out_frame[i], extra, extra_len);
i += extra_len;
}
int tlen = strlen(text); // TODO: UTF-8 ??
if (i + tlen > MAX_FRAME_SIZE) {
tlen = MAX_FRAME_SIZE - i;
}
memcpy(&out_frame[i], text, tlen);
i += tlen;
addToOfflineQueue(out_frame, i);
if (_serial->isConnected()) {
uint8_t frame[1];
frame[0] = PUSH_CODE_MSG_WAITING; // send push 'tickle'
_serial->writeFrame(frame, 1);
}
#ifdef DISPLAY_CLASS
// we only want to show text messages on display, not cli data
bool should_display = txt_type == TXT_TYPE_PLAIN || txt_type == TXT_TYPE_SIGNED_PLAIN;
if (should_display && _ui) {
_ui->newMsg(path_len, from.name, text, offline_queue_len);
if (!_serial->isConnected()) {
_ui->notify(UIEventType::contactMessage);
}
}
#endif
}
bool MyMesh::filterRecvFloodPacket(mesh::Packet* packet) {
// REVISIT: try to determine which Region (from transport_codes[1]) that Sender is indicating for replies/responses
// if unknown, fallback to finding Region from transport_codes[0], the 'scope' used by Sender
return false;
}
void MyMesh::sendFloodScoped(const ContactInfo& recipient, mesh::Packet* pkt, uint32_t delay_millis) {
// TODO: dynamic send_scope, depending on recipient and current 'home' Region
if (send_scope.isNull()) {
sendFlood(pkt, delay_millis);
} else {
uint16_t codes[2];
codes[0] = send_scope.calcTransportCode(pkt);
codes[1] = 0; // REVISIT: set to 'home' Region, for sender/return region?
sendFlood(pkt, codes, delay_millis);
}
}
void MyMesh::sendFloodScoped(const mesh::GroupChannel& channel, mesh::Packet* pkt, uint32_t delay_millis) {
// TODO: have per-channel send_scope
if (send_scope.isNull()) {
sendFlood(pkt, delay_millis);
} else {
uint16_t codes[2];
codes[0] = send_scope.calcTransportCode(pkt);
codes[1] = 0; // REVISIT: set to 'home' Region, for sender/return region?
sendFlood(pkt, codes, delay_millis);
}
}
void MyMesh::onMessageRecv(const ContactInfo &from, mesh::Packet *pkt, uint32_t sender_timestamp,
const char *text) {
markConnectionActive(from); // in case this is from a server, and we have a connection
queueMessage(from, TXT_TYPE_PLAIN, pkt, sender_timestamp, NULL, 0, text);
}
void MyMesh::onCommandDataRecv(const ContactInfo &from, mesh::Packet *pkt, uint32_t sender_timestamp,
const char *text) {
markConnectionActive(from); // in case this is from a server, and we have a connection
queueMessage(from, TXT_TYPE_CLI_DATA, pkt, sender_timestamp, NULL, 0, text);
}
void MyMesh::onSignedMessageRecv(const ContactInfo &from, mesh::Packet *pkt, uint32_t sender_timestamp,
const uint8_t *sender_prefix, const char *text) {
markConnectionActive(from);
// from.sync_since change needs to be persisted
dirty_contacts_expiry = futureMillis(LAZY_CONTACTS_WRITE_DELAY);
queueMessage(from, TXT_TYPE_SIGNED_PLAIN, pkt, sender_timestamp, sender_prefix, 4, text);
}
void MyMesh::onChannelMessageRecv(const mesh::GroupChannel &channel, mesh::Packet *pkt, uint32_t timestamp,
const char *text) {
int i = 0;
if (app_target_ver >= 3) {
out_frame[i++] = RESP_CODE_CHANNEL_MSG_RECV_V3;
out_frame[i++] = (int8_t)(pkt->getSNR() * 4);
out_frame[i++] = 0; // reserved1
out_frame[i++] = 0; // reserved2
} else {
out_frame[i++] = RESP_CODE_CHANNEL_MSG_RECV;
}
uint8_t channel_idx = findChannelIdx(channel);
out_frame[i++] = channel_idx;
uint8_t path_len = out_frame[i++] = pkt->isRouteFlood() ? pkt->path_len : 0xFF;
out_frame[i++] = TXT_TYPE_PLAIN;
memcpy(&out_frame[i], ×tamp, 4);
i += 4;
int tlen = strlen(text); // TODO: UTF-8 ??
if (i + tlen > MAX_FRAME_SIZE) {
tlen = MAX_FRAME_SIZE - i;
}
memcpy(&out_frame[i], text, tlen);
i += tlen;
addToOfflineQueue(out_frame, i);
if (_serial->isConnected()) {
uint8_t frame[1];
frame[0] = PUSH_CODE_MSG_WAITING; // send push 'tickle'
_serial->writeFrame(frame, 1);
} else {
#ifdef DISPLAY_CLASS
if (_ui) _ui->notify(UIEventType::channelMessage);
#endif
}
#ifdef DISPLAY_CLASS
// Get the channel name from the channel index
const char *channel_name = "Unknown";
ChannelDetails channel_details;
if (getChannel(channel_idx, channel_details)) {
channel_name = channel_details.name;
}
if (_ui) _ui->newMsg(path_len, channel_name, text, offline_queue_len);
#endif
}
uint8_t MyMesh::onContactRequest(const ContactInfo &contact, uint32_t sender_timestamp, const uint8_t *data,
uint8_t len, uint8_t *reply) {
if (data[0] == REQ_TYPE_GET_TELEMETRY_DATA) {
uint8_t permissions = 0;
uint8_t cp = contact.flags >> 1; // LSB used as 'favourite' bit (so only use upper bits)
if (_prefs.telemetry_mode_base == TELEM_MODE_ALLOW_ALL) {
permissions = TELEM_PERM_BASE;
} else if (_prefs.telemetry_mode_base == TELEM_MODE_ALLOW_FLAGS) {
permissions = cp & TELEM_PERM_BASE;
}
if (_prefs.telemetry_mode_loc == TELEM_MODE_ALLOW_ALL) {
permissions |= TELEM_PERM_LOCATION;
} else if (_prefs.telemetry_mode_loc == TELEM_MODE_ALLOW_FLAGS) {
permissions |= cp & TELEM_PERM_LOCATION;
}
if (_prefs.telemetry_mode_env == TELEM_MODE_ALLOW_ALL) {
permissions |= TELEM_PERM_ENVIRONMENT;
} else if (_prefs.telemetry_mode_env == TELEM_MODE_ALLOW_FLAGS) {
permissions |= cp & TELEM_PERM_ENVIRONMENT;
}
uint8_t perm_mask = ~(data[1]); // NEW: first reserved byte (of 4), is now inverse mask to apply to permissions
permissions &= perm_mask;
if (permissions & TELEM_PERM_BASE) { // only respond if base permission bit is set
telemetry.reset();
telemetry.addVoltage(TELEM_CHANNEL_SELF, (float)board.getBattMilliVolts() / 1000.0f);
// query other sensors -- target specific
sensors.querySensors(permissions, telemetry);
memcpy(reply, &sender_timestamp,
4); // reflect sender_timestamp back in response packet (kind of like a 'tag')
uint8_t tlen = telemetry.getSize();
memcpy(&reply[4], telemetry.getBuffer(), tlen);
return 4 + tlen;
}
}
return 0; // unknown
}
void MyMesh::onContactResponse(const ContactInfo &contact, const uint8_t *data, uint8_t len) {
uint32_t tag;
memcpy(&tag, data, 4);
if (pending_login && memcmp(&pending_login, contact.id.pub_key, 4) == 0) { // check for login response
// yes, is response to pending sendLogin()
pending_login = 0;
int i = 0;
if (memcmp(&data[4], "OK", 2) == 0) { // legacy Repeater login OK response
out_frame[i++] = PUSH_CODE_LOGIN_SUCCESS;
out_frame[i++] = 0; // legacy: is_admin = false
memcpy(&out_frame[i], contact.id.pub_key, 6);
i += 6; // pub_key_prefix
} else if (data[4] == RESP_SERVER_LOGIN_OK) { // new login response
uint16_t keep_alive_secs = ((uint16_t)data[5]) * 16;
if (keep_alive_secs > 0) {
startConnection(contact, keep_alive_secs);
}
out_frame[i++] = PUSH_CODE_LOGIN_SUCCESS;
out_frame[i++] = data[6]; // permissions (eg. is_admin)
memcpy(&out_frame[i], contact.id.pub_key, 6);
i += 6; // pub_key_prefix
memcpy(&out_frame[i], &tag, 4);
i += 4; // NEW: include server timestamp
out_frame[i++] = data[7]; // NEW (v7): ACL permissions
out_frame[i++] = data[12]; // FIRMWARE_VER_LEVEL
} else {
out_frame[i++] = PUSH_CODE_LOGIN_FAIL;
out_frame[i++] = 0; // reserved
memcpy(&out_frame[i], contact.id.pub_key, 6);
i += 6; // pub_key_prefix
}
_serial->writeFrame(out_frame, i);
} else if (len > 4 && // check for status response
pending_status &&
memcmp(&pending_status, contact.id.pub_key, 4) == 0 // legacy matching scheme
// FUTURE: tag == pending_status
) {
pending_status = 0;
int i = 0;
out_frame[i++] = PUSH_CODE_STATUS_RESPONSE;
out_frame[i++] = 0; // reserved
memcpy(&out_frame[i], contact.id.pub_key, 6);
i += 6; // pub_key_prefix
memcpy(&out_frame[i], &data[4], len - 4);
i += (len - 4);
_serial->writeFrame(out_frame, i);
} else if (len > 4 && tag == pending_telemetry) { // check for matching response tag
pending_telemetry = 0;
int i = 0;
out_frame[i++] = PUSH_CODE_TELEMETRY_RESPONSE;
out_frame[i++] = 0; // reserved
memcpy(&out_frame[i], contact.id.pub_key, 6);
i += 6; // pub_key_prefix
memcpy(&out_frame[i], &data[4], len - 4);
i += (len - 4);
_serial->writeFrame(out_frame, i);
} else if (len > 4 && tag == pending_req) { // check for matching response tag
pending_req = 0;
int i = 0;
out_frame[i++] = PUSH_CODE_BINARY_RESPONSE;
out_frame[i++] = 0; // reserved
memcpy(&out_frame[i], &tag, 4); // app needs to match this to RESP_CODE_SENT.tag
i += 4;
memcpy(&out_frame[i], &data[4], len - 4);
i += (len - 4);
_serial->writeFrame(out_frame, i);
}
}
bool MyMesh::onContactPathRecv(ContactInfo& contact, uint8_t* in_path, uint8_t in_path_len, uint8_t* out_path, uint8_t out_path_len, uint8_t extra_type, uint8_t* extra, uint8_t extra_len) {
if (extra_type == PAYLOAD_TYPE_RESPONSE && extra_len > 4) {
uint32_t tag;
memcpy(&tag, extra, 4);
if (tag == pending_discovery) { // check for matching response tag)
pending_discovery = 0;
if (in_path_len > MAX_PATH_SIZE || out_path_len > MAX_PATH_SIZE) {
MESH_DEBUG_PRINTLN("onContactPathRecv, invalid path sizes: %d, %d", in_path_len, out_path_len);
} else {
int i = 0;
out_frame[i++] = PUSH_CODE_PATH_DISCOVERY_RESPONSE;
out_frame[i++] = 0; // reserved
memcpy(&out_frame[i], contact.id.pub_key, 6);
i += 6; // pub_key_prefix
out_frame[i++] = out_path_len;
memcpy(&out_frame[i], out_path, out_path_len);
i += out_path_len;
out_frame[i++] = in_path_len;
memcpy(&out_frame[i], in_path, in_path_len);
i += in_path_len;
// NOTE: telemetry data in 'extra' is discarded at present
_serial->writeFrame(out_frame, i);
}
return false; // DON'T send reciprocal path!
}
}
// let base class handle received path and data
return BaseChatMesh::onContactPathRecv(contact, in_path, in_path_len, out_path, out_path_len, extra_type, extra, extra_len);
}
void MyMesh::onControlDataRecv(mesh::Packet *packet) {
if (packet->payload_len + 4 > sizeof(out_frame)) {
MESH_DEBUG_PRINTLN("onControlDataRecv(), payload_len too long: %d", packet->payload_len);
return;
}
int i = 0;
out_frame[i++] = PUSH_CODE_CONTROL_DATA;
out_frame[i++] = (int8_t)(_radio->getLastSNR() * 4);
out_frame[i++] = (int8_t)(_radio->getLastRSSI());
out_frame[i++] = packet->path_len;
memcpy(&out_frame[i], packet->payload, packet->payload_len);
i += packet->payload_len;
if (_serial->isConnected()) {
_serial->writeFrame(out_frame, i);
} else {
MESH_DEBUG_PRINTLN("onControlDataRecv(), data received while app offline");
}
}
void MyMesh::onRawDataRecv(mesh::Packet *packet) {
if (packet->payload_len + 4 > sizeof(out_frame)) {
MESH_DEBUG_PRINTLN("onRawDataRecv(), payload_len too long: %d", packet->payload_len);
return;
}
int i = 0;
out_frame[i++] = PUSH_CODE_RAW_DATA;
out_frame[i++] = (int8_t)(_radio->getLastSNR() * 4);
out_frame[i++] = (int8_t)(_radio->getLastRSSI());
out_frame[i++] = 0xFF; // reserved (possibly path_len in future)
memcpy(&out_frame[i], packet->payload, packet->payload_len);
i += packet->payload_len;
if (_serial->isConnected()) {
_serial->writeFrame(out_frame, i);
} else {
MESH_DEBUG_PRINTLN("onRawDataRecv(), data received while app offline");
}
}
void MyMesh::onTraceRecv(mesh::Packet *packet, uint32_t tag, uint32_t auth_code, uint8_t flags,
const uint8_t *path_snrs, const uint8_t *path_hashes, uint8_t path_len) {
uint8_t path_sz = flags & 0x03; // NEW v1.11+
if (12 + path_len + (path_len >> path_sz) + 1 > sizeof(out_frame)) {
MESH_DEBUG_PRINTLN("onTraceRecv(), path_len is too long: %d", (uint32_t)path_len);
return;
}
int i = 0;
out_frame[i++] = PUSH_CODE_TRACE_DATA;
out_frame[i++] = 0; // reserved
out_frame[i++] = path_len;
out_frame[i++] = flags;
memcpy(&out_frame[i], &tag, 4);
i += 4;
memcpy(&out_frame[i], &auth_code, 4);
i += 4;
memcpy(&out_frame[i], path_hashes, path_len);
i += path_len;
memcpy(&out_frame[i], path_snrs, path_len >> path_sz);
i += path_len >> path_sz;
out_frame[i++] = (int8_t)(packet->getSNR() * 4); // extra/final SNR (to this node)
if (_serial->isConnected()) {
_serial->writeFrame(out_frame, i);
} else {
MESH_DEBUG_PRINTLN("onTraceRecv(), data received while app offline");
}
}
uint32_t MyMesh::calcFloodTimeoutMillisFor(uint32_t pkt_airtime_millis) const {
return SEND_TIMEOUT_BASE_MILLIS + (FLOOD_SEND_TIMEOUT_FACTOR * pkt_airtime_millis);
}
uint32_t MyMesh::calcDirectTimeoutMillisFor(uint32_t pkt_airtime_millis, uint8_t path_len) const {
return SEND_TIMEOUT_BASE_MILLIS +
((pkt_airtime_millis * DIRECT_SEND_PERHOP_FACTOR + DIRECT_SEND_PERHOP_EXTRA_MILLIS) *
(path_len + 1));
}
void MyMesh::onSendTimeout() {}
MyMesh::MyMesh(mesh::Radio &radio, mesh::RNG &rng, mesh::RTCClock &rtc, SimpleMeshTables &tables, DataStore& store, AbstractUITask* ui)
: BaseChatMesh(radio, *new ArduinoMillis(), rng, rtc, *new StaticPoolPacketManager(16), tables),
_serial(NULL), telemetry(MAX_PACKET_PAYLOAD - 4), _store(&store), _ui(ui) {
_iter_started = false;
_cli_rescue = false;
offline_queue_len = 0;
app_target_ver = 0;
clearPendingReqs();
next_ack_idx = 0;
sign_data = NULL;
dirty_contacts_expiry = 0;
memset(advert_paths, 0, sizeof(advert_paths));
memset(send_scope.key, 0, sizeof(send_scope.key));
// defaults
memset(&_prefs, 0, sizeof(_prefs));
_prefs.airtime_factor = 1.0; // one half
strcpy(_prefs.node_name, "NONAME");
_prefs.freq = LORA_FREQ;
_prefs.sf = LORA_SF;
_prefs.bw = LORA_BW;
_prefs.cr = LORA_CR;
_prefs.tx_power_dbm = LORA_TX_POWER;
//_prefs.rx_delay_base = 10.0f; enable once new algo fixed
}
void MyMesh::begin(bool has_display) {
BaseChatMesh::begin();
if (!_store->loadMainIdentity(self_id)) {
self_id = radio_new_identity(); // create new random identity
int count = 0;
while (count < 10 && (self_id.pub_key[0] == 0x00 || self_id.pub_key[0] == 0xFF)) { // reserved id hashes
self_id = radio_new_identity();
count++;
}
_store->saveMainIdentity(self_id);
}
// use hex of first 4 bytes of identity public key as default node name
char pub_key_hex[10];
mesh::Utils::toHex(pub_key_hex, self_id.pub_key, 4);
strcpy(_prefs.node_name, pub_key_hex);
// if name is provided as a build flag, use that as default node name instead
#ifdef ADVERT_NAME
strcpy(_prefs.node_name, ADVERT_NAME);
#endif
// load persisted prefs
_store->loadPrefs(_prefs, sensors.node_lat, sensors.node_lon);
// sanitise bad pref values
_prefs.rx_delay_base = constrain(_prefs.rx_delay_base, 0, 20.0f);
_prefs.airtime_factor = constrain(_prefs.airtime_factor, 0, 9.0f);
_prefs.freq = constrain(_prefs.freq, 400.0f, 2500.0f);
_prefs.bw = constrain(_prefs.bw, 7.8f, 500.0f);
_prefs.sf = constrain(_prefs.sf, 5, 12);
_prefs.cr = constrain(_prefs.cr, 5, 8);
_prefs.tx_power_dbm = constrain(_prefs.tx_power_dbm, 1, MAX_LORA_TX_POWER);
#ifdef BLE_PIN_CODE // 123456 by default
if (_prefs.ble_pin == 0) {
#ifdef DISPLAY_CLASS
if (has_display && BLE_PIN_CODE == 123456) {
StdRNG rng;
_active_ble_pin = rng.nextInt(100000, 999999); // random pin each session
} else {
_active_ble_pin = BLE_PIN_CODE; // otherwise static pin
}
#else
_active_ble_pin = BLE_PIN_CODE; // otherwise static pin
#endif
} else {
_active_ble_pin = _prefs.ble_pin;
}
#else
_active_ble_pin = 0;
#endif
resetContacts();
_store->loadContacts(this);
addChannel("Public", PUBLIC_GROUP_PSK); // pre-configure Andy's public channel
_store->loadChannels(this);
radio_set_params(_prefs.freq, _prefs.bw, _prefs.sf, _prefs.cr);
radio_set_tx_power(_prefs.tx_power_dbm);
}
const char *MyMesh::getNodeName() {
return _prefs.node_name;
}
NodePrefs *MyMesh::getNodePrefs() {
return &_prefs;
}
uint32_t MyMesh::getBLEPin() {
return _active_ble_pin;
}
void MyMesh::startInterface(BaseSerialInterface &serial) {
_serial = &serial;
serial.enable();
}
void MyMesh::handleCmdFrame(size_t len) {
if (cmd_frame[0] == CMD_DEVICE_QEURY && len >= 2) { // sent when app establishes connection
app_target_ver = cmd_frame[1]; // which version of protocol does app understand
int i = 0;
out_frame[i++] = RESP_CODE_DEVICE_INFO;
out_frame[i++] = FIRMWARE_VER_CODE;
out_frame[i++] = MAX_CONTACTS / 2; // v3+
out_frame[i++] = MAX_GROUP_CHANNELS; // v3+
memcpy(&out_frame[i], &_prefs.ble_pin, 4);
i += 4;
memset(&out_frame[i], 0, 12);
strcpy((char *)&out_frame[i], FIRMWARE_BUILD_DATE);
i += 12;
StrHelper::strzcpy((char *)&out_frame[i], board.getManufacturerName(), 40);
i += 40;
StrHelper::strzcpy((char *)&out_frame[i], FIRMWARE_VERSION, 20);
i += 20;
_serial->writeFrame(out_frame, i);
} else if (cmd_frame[0] == CMD_APP_START &&
len >= 8) { // sent when app establishes connection, respond with node ID
// cmd_frame[1..7] reserved future
char *app_name = (char *)&cmd_frame[8];
cmd_frame[len] = 0; // make app_name null terminated
MESH_DEBUG_PRINTLN("App %s connected", app_name);
_iter_started = false; // stop any left-over ContactsIterator
int i = 0;
out_frame[i++] = RESP_CODE_SELF_INFO;
out_frame[i++] = ADV_TYPE_CHAT; // what this node Advert identifies as (maybe node's pronouns too?? :-)
out_frame[i++] = _prefs.tx_power_dbm;
out_frame[i++] = MAX_LORA_TX_POWER;
memcpy(&out_frame[i], self_id.pub_key, PUB_KEY_SIZE);
i += PUB_KEY_SIZE;
int32_t lat, lon;
lat = (sensors.node_lat * 1000000.0);
lon = (sensors.node_lon * 1000000.0);
memcpy(&out_frame[i], &lat, 4);
i += 4;
memcpy(&out_frame[i], &lon, 4);
i += 4;
out_frame[i++] = _prefs.multi_acks; // new v7+
out_frame[i++] = _prefs.advert_loc_policy;
out_frame[i++] = (_prefs.telemetry_mode_env << 4) | (_prefs.telemetry_mode_loc << 2) |
(_prefs.telemetry_mode_base); // v5+
out_frame[i++] = _prefs.manual_add_contacts;
uint32_t freq = _prefs.freq * 1000;
memcpy(&out_frame[i], &freq, 4);
i += 4;
uint32_t bw = _prefs.bw * 1000;
memcpy(&out_frame[i], &bw, 4);
i += 4;
out_frame[i++] = _prefs.sf;
out_frame[i++] = _prefs.cr;
int tlen = strlen(_prefs.node_name); // revisit: UTF_8 ??
memcpy(&out_frame[i], _prefs.node_name, tlen);
i += tlen;
_serial->writeFrame(out_frame, i);
} else if (cmd_frame[0] == CMD_SEND_TXT_MSG && len >= 14) {
int i = 1;
uint8_t txt_type = cmd_frame[i++];
uint8_t attempt = cmd_frame[i++];
uint32_t msg_timestamp;
memcpy(&msg_timestamp, &cmd_frame[i], 4);
i += 4;
uint8_t *pub_key_prefix = &cmd_frame[i];
i += 6;
ContactInfo *recipient = lookupContactByPubKey(pub_key_prefix, 6);
if (recipient && (txt_type == TXT_TYPE_PLAIN || txt_type == TXT_TYPE_CLI_DATA)) {
char *text = (char *)&cmd_frame[i];
int tlen = len - i;
uint32_t est_timeout;
text[tlen] = 0; // ensure null
int result;
uint32_t expected_ack;
if (txt_type == TXT_TYPE_CLI_DATA) {
result = sendCommandData(*recipient, msg_timestamp, attempt, text, est_timeout);
expected_ack = 0; // no Ack expected
} else {
result = sendMessage(*recipient, msg_timestamp, attempt, text, expected_ack, est_timeout);
}
// TODO: add expected ACK to table
if (result == MSG_SEND_FAILED) {
writeErrFrame(ERR_CODE_TABLE_FULL);
} else {
if (expected_ack) {
expected_ack_table[next_ack_idx].msg_sent = _ms->getMillis(); // add to circular table
expected_ack_table[next_ack_idx].ack = expected_ack;
expected_ack_table[next_ack_idx].contact = recipient;
next_ack_idx = (next_ack_idx + 1) % EXPECTED_ACK_TABLE_SIZE;
}
out_frame[0] = RESP_CODE_SENT;
out_frame[1] = (result == MSG_SEND_SENT_FLOOD) ? 1 : 0;
memcpy(&out_frame[2], &expected_ack, 4);
memcpy(&out_frame[6], &est_timeout, 4);
_serial->writeFrame(out_frame, 10);
}
} else {
writeErrFrame(recipient == NULL
? ERR_CODE_NOT_FOUND
: ERR_CODE_UNSUPPORTED_CMD); // unknown recipient, or unsuported TXT_TYPE_*
}
} else if (cmd_frame[0] == CMD_SEND_CHANNEL_TXT_MSG) { // send GroupChannel msg
int i = 1;
uint8_t txt_type = cmd_frame[i++]; // should be TXT_TYPE_PLAIN
uint8_t channel_idx = cmd_frame[i++];
uint32_t msg_timestamp;
memcpy(&msg_timestamp, &cmd_frame[i], 4);
i += 4;
const char *text = (char *)&cmd_frame[i];
if (txt_type != TXT_TYPE_PLAIN) {
writeErrFrame(ERR_CODE_UNSUPPORTED_CMD);
} else {
ChannelDetails channel;
bool success = getChannel(channel_idx, channel);
if (success && sendGroupMessage(msg_timestamp, channel.channel, _prefs.node_name, text, len - i)) {
writeOKFrame();
} else {
writeErrFrame(ERR_CODE_NOT_FOUND); // bad channel_idx
}
}
} else if (cmd_frame[0] == CMD_GET_CONTACTS) { // get Contact list
if (_iter_started) {
writeErrFrame(ERR_CODE_BAD_STATE); // iterator is currently busy
} else {
if (len >= 5) { // has optional 'since' param
memcpy(&_iter_filter_since, &cmd_frame[1], 4);
} else {
_iter_filter_since = 0;
}
uint8_t reply[5];
reply[0] = RESP_CODE_CONTACTS_START;
uint32_t count = getNumContacts(); // total, NOT filtered count
memcpy(&reply[1], &count, 4);
_serial->writeFrame(reply, 5);
// start iterator
_iter = startContactsIterator();
_iter_started = true;
_most_recent_lastmod = 0;
}
} else if (cmd_frame[0] == CMD_SET_ADVERT_NAME && len >= 2) {
int nlen = len - 1;
if (nlen > sizeof(_prefs.node_name) - 1) nlen = sizeof(_prefs.node_name) - 1; // max len
memcpy(_prefs.node_name, &cmd_frame[1], nlen);
_prefs.node_name[nlen] = 0; // null terminator
savePrefs();
writeOKFrame();
} else if (cmd_frame[0] == CMD_SET_ADVERT_LATLON && len >= 9) {
int32_t lat, lon, alt = 0;
memcpy(&lat, &cmd_frame[1], 4);
memcpy(&lon, &cmd_frame[5], 4);
if (len >= 13) {
memcpy(&alt, &cmd_frame[9], 4); // for FUTURE support
}
if (lat <= 90 * 1E6 && lat >= -90 * 1E6 && lon <= 180 * 1E6 && lon >= -180 * 1E6) {
sensors.node_lat = ((double)lat) / 1000000.0;
sensors.node_lon = ((double)lon) / 1000000.0;
savePrefs();
writeOKFrame();
} else {
writeErrFrame(ERR_CODE_ILLEGAL_ARG); // invalid geo coordinate
}
} else if (cmd_frame[0] == CMD_GET_DEVICE_TIME) {
uint8_t reply[5];
reply[0] = RESP_CODE_CURR_TIME;
uint32_t now = getRTCClock()->getCurrentTime();
memcpy(&reply[1], &now, 4);
_serial->writeFrame(reply, 5);
} else if (cmd_frame[0] == CMD_SET_DEVICE_TIME && len >= 5) {
uint32_t secs;
memcpy(&secs, &cmd_frame[1], 4);